CN217091732U - Hydrogen absorption device based on breathing machine - Google Patents

Abstract

The utility model provides a hydrogen absorption device based on a breathing machine, which comprises a breathing machine body, wherein the input end of the breathing machine body is connected with an air source and an oxygen source, and the output end of the breathing machine body provides breath for patients; the output end of the respirator body is also connected with a hydrogen path; set up the hydrogen gas circuit on the basis of the breathing machine of two gas circuits of current air and oxygen, make it possess the function of hydrogen breathing machine, solved the problem that current breathing machine function is single, and can reform transform on the basis of current breathing machine, the effective control cost.

Description

Hydrogen absorption device based on breathing machine

Technical Field

The utility model relates to a breathing auxiliary assembly field especially relates to a inhale hydrogen device based on breathing machine.

Background

The traditional respirator is a device which takes pure air (a household respirator) or air and oxygen (a medical respirator) as an air source, controls air flow and supports breathing of a user. Conventional ventilators do not involve hydrogen.

A hydrogen ventilator is a device that provides hydrogen gas for the user to use for breathing. The hydrogen breathing machines on the market all use the principle of electrolyzing water to generate hydrogen and oxygen, and users can select to use the hydrogen or the oxygen or the mixed gas of the hydrogen and the oxygen. The existing hydrogen breathing machine on the market does not relate to more complicated airflow control, works at a fixed flow, and no equipment for realizing the hydrogen absorption function by means of the traditional breathing machine is available on the market at present.

Therefore, there is a need for a hydrogen absorption device based on a ventilator, which can solve the problem that no equipment for realizing the hydrogen absorption function by means of the traditional ventilator is available in the market.

SUMMERY OF THE UTILITY MODEL

The utility model aims at providing a hydrogen absorption device based on breathing machine to solve the above-mentioned problem that does not have the equipment that realizes the hydrogen absorption function with the help of traditional breathing machine on the market at present.

In order to achieve the above object, the utility model provides a following scheme:

the utility model provides a hydrogen absorption device based on a breathing machine, which comprises a breathing machine body, wherein the input end of the breathing machine body is connected with an air source and an oxygen source, and the output end of the breathing machine body provides breath for a patient; the output end of the respirator body is also connected with a hydrogen gas circuit.

Preferably, the air source and the oxygen source both adopt gas provided by a gas storage steel cylinder, the respirator body comprises a controller, and the controller is respectively electrically connected with an air proportional valve, an oxygen proportional valve, an air flow meter and an oxygen flow meter, wherein the input end of the air proportional valve is connected with the output end of the air source, and the output end of the air proportional valve is connected with the input end of the air flow meter; the input end of the oxygen proportional valve is connected with the output end of the oxygen source, the output end of the oxygen proportional valve is connected with the input end of the oxygen flow meter, and the output end of the air flow meter and the output end of the oxygen flow meter are converged and then output to provide breath for a patient; the hydrogen way comprises a hydrogen source, the hydrogen source adopts gas provided by a gas storage steel cylinder, the output end of the hydrogen source is connected with the input end of a hydrogen proportional valve, the output end of the hydrogen proportional valve is connected with the input end of a hydrogen flow meter, and the output end of the hydrogen flow meter is connected with the merging end of the air flow meter and the oxygen flow meter.

Preferably, the air source and the oxygen source both adopt gas provided by a gas storage steel cylinder, the respirator body comprises a controller, and the controller is respectively electrically connected with an air proportional valve, an oxygen proportional valve, an air flow meter and an oxygen flow meter, wherein the input end of the air proportional valve is connected with the output end of the air source, and the output end of the air proportional valve is connected with the input end of the air flow meter; the input end of the oxygen proportional valve is connected with the output end of the oxygen source, the output end of the oxygen proportional valve is connected with the input end of the oxygen flow meter, and the output end of the air flow meter and the output end of the oxygen flow meter are converged and then output to provide breathing for a patient; the hydrogen way comprises a hydrogen source, the hydrogen source adopts gas provided by a water electrolysis hydrogen production machine, and the output end of the water electrolysis hydrogen production machine is connected with the merging end of the air flow meter and the oxygen flow meter.

Preferably, the oxygen source is gas provided by a gas storage steel cylinder, the air source is gas provided by a turbine compressor, the respirator body comprises a controller, and the controller is respectively electrically connected with the turbine compressor, the oxygen proportional valve, the air flow meter, the oxygen flow meter and the oxygen pressure gauge, wherein the output end of the turbine compressor is connected with the input end of the air flow meter, and the output end of the air flow meter is connected with the input end of the air pressure gauge; the input end of the oxygen proportional valve is connected with the output end of the oxygen source, the output end of the oxygen proportional valve is connected with the input end of the oxygen flow meter, and the output end of the air pressure gauge and the output end of the oxygen flow meter are converged and then output to provide breath for a patient; the hydrogen way comprises a hydrogen source, the hydrogen source adopts gas provided by a gas storage steel cylinder, the output end of the hydrogen source is connected with the input end of a hydrogen proportional valve, the output end of the hydrogen proportional valve is connected with the input end of a hydrogen flowmeter, and the output end of the hydrogen flowmeter is connected with the merging end of the air pressure meter and the oxygen flowmeter.

Preferably, the oxygen source is gas provided by a gas storage steel cylinder, the air source is gas provided by a turbine compressor, the respirator body comprises a controller, and the controller is respectively electrically connected with the turbine compressor, the oxygen proportional valve, the air flow meter, the oxygen flow meter and the air pressure gauge, wherein the output end of the turbine compressor is connected with the input end of the air flow meter, and the output end of the air flow meter is connected with the input end of the air pressure gauge; the input end of the oxygen proportional valve is connected with the output end of the oxygen source, the output end of the oxygen proportional valve is connected with the input end of the oxygen flow meter, and the output end of the air pressure gauge and the output end of the oxygen flow meter are converged and then output to provide breath for a patient; the hydrogen way comprises a hydrogen source, the hydrogen source adopts gas provided by a water electrolysis hydrogen production machine, and the output end of the water electrolysis hydrogen production machine is connected with the merging end of the air pressure meter and the oxygen flow meter.

Preferably, the air source and the oxygen source both adopt gas provided by a gas storage steel cylinder, the respirator body comprises a controller, and the controller is respectively electrically connected with an air proportional valve, an oxygen proportional valve, an air flow meter, an oxygen flow meter and a total pressure meter, wherein the input end of the air proportional valve is connected with the output end of the air source, and the output end of the air proportional valve is connected with the input end of the air flow meter; the input end of the oxygen proportional valve is connected with the output end of the oxygen source, the output end of the oxygen proportional valve is connected with the input end of the oxygen flow meter, and the output end of the air flow meter and the output end of the oxygen flow meter are converged and then output through the total pressure meter to provide breath for the patient; the hydrogen way comprises a hydrogen source, the hydrogen source adopts gas provided by a gas storage steel cylinder, the output end of the hydrogen source is connected with the input end of a hydrogen proportional valve, the output end of the hydrogen proportional valve is connected with the input end of a hydrogen flowmeter, and the output end of the hydrogen flowmeter is connected with the output end of the master pressure gauge.

Preferably, the air source and the oxygen source both adopt gas provided by a gas storage steel cylinder, the respirator body comprises a controller, and the controller is respectively electrically connected with an air proportional valve, an oxygen proportional valve, an air flow meter, an oxygen flow meter and a total pressure meter, wherein the input end of the air proportional valve is connected with the output end of the air source, and the output end of the air proportional valve is connected with the input end of the air flow meter; the input end of the oxygen proportional valve is connected with the output end of the oxygen source, the output end of the oxygen proportional valve is connected with the input end of the oxygen flow meter, and the output end of the air flow meter and the output end of the oxygen flow meter are converged and then output through the total pressure meter to provide breath for the patient; the hydrogen way comprises a hydrogen source, the hydrogen source adopts gas provided by a water electrolysis hydrogen production machine, and the output end of the water electrolysis hydrogen production machine is connected with the output end of the total pressure gauge.

Preferably, the oxygen source is gas provided by a gas storage steel cylinder, the air source is gas provided by a turbine compressor, the respirator body comprises a controller, the controller is respectively and electrically connected with the turbine compressor, the oxygen proportional valve, the air flow meter, the oxygen flow meter and the total pressure meter, and the output end of the turbine compressor is connected with the input end of the air flow meter; the input end of the oxygen proportional valve is connected with the output end of the oxygen source, the output end of the oxygen proportional valve is connected with the input end of the oxygen flow meter, and the output end of the air flow meter and the output end of the oxygen flow meter are converged and then output through the total pressure meter to provide breath for the patient; the hydrogen way comprises a hydrogen source, the hydrogen source adopts gas provided by a gas storage steel cylinder, the output end of the hydrogen source is connected with the input end of a hydrogen proportional valve, the output end of the hydrogen proportional valve is connected with the input end of a hydrogen flowmeter, and the output end of the hydrogen flowmeter is connected with the output end of the master pressure gauge.

Preferably, the oxygen source is gas provided by a gas storage steel cylinder, the air source is gas provided by a turbine compressor, the respirator body comprises a controller, the controller is electrically connected with the turbine compressor, the oxygen proportional valve, the air flow meter, the oxygen flow meter and the total pressure meter respectively, and the output end of the turbine compressor is connected with the input end of the air flow meter; the input end of the oxygen proportional valve is connected with the output end of the oxygen source, the output end of the oxygen proportional valve is connected with the input end of the oxygen flow meter, and the output end of the air flow meter and the output end of the oxygen flow meter are converged and then output through the total pressure meter to provide breath for the patient; the hydrogen way comprises a hydrogen source, the hydrogen source adopts gas provided by a water electrolysis hydrogen production machine, and the output end of the water electrolysis hydrogen production machine is connected with the output end of the total pressure gauge.

The utility model discloses following beneficial technological effect has been gained for prior art:

the utility model provides a hydrogen absorption device based on a breathing machine, which comprises a breathing machine body, wherein the input end of the breathing machine body is connected with an air source and an oxygen source, and the output end of the breathing machine body provides breath for a patient; the output end of the respirator body is also connected with a hydrogen path; set up the hydrogen gas circuit on the basis of the breathing machine of two gas circuits of current air and oxygen, make it possess the function of hydrogen breathing machine, solved the problem that current breathing machine function is single, and can reform transform on the basis of current breathing machine, the effective control cost.

Drawings

In order to more clearly illustrate the embodiments of the present invention or the technical solutions in the prior art, the drawings required to be used in the embodiments will be briefly described below, and it is obvious that the drawings in the following description are only some embodiments of the present invention, and for those skilled in the art, other drawings can be obtained according to these drawings without inventive labor.

Fig. 1 is a schematic structural view of an embodiment 1 of a hydrogen absorption device based on a breathing machine according to the present invention;

fig. 2 is a schematic structural view of an embodiment 2 of a hydrogen absorption device based on a breathing machine according to the present invention;

fig. 3 is a schematic structural view of an embodiment 3 of a hydrogen absorption device based on a breathing machine according to the present invention;

fig. 4 is a schematic structural view of an embodiment 4 of a hydrogen absorption device based on a breathing machine according to the present invention;

fig. 5 is a schematic structural view of an embodiment 5 of a hydrogen absorption device based on a breathing machine according to the present invention;

fig. 6 is a schematic structural view of an embodiment 6 of a hydrogen absorption device based on a breathing machine according to the present invention;

fig. 7 is a schematic structural view of an embodiment 7 of a hydrogen absorption device based on a breathing machine according to the present invention;

fig. 8 is a schematic structural view of an embodiment 8 of a hydrogen absorption device based on a breathing machine according to the present invention;

in the figure: 1: air source, 2: oxygen gas source, 3: hydrogen gas source, 4: air proportional valve, 5: oxygen proportional valve, 6: hydrogen proportional valve, 7: air flow meter, 8: oxygen flow meter, 9: hydrogen gas flow meter, 10: air pressure gauge, 11: the total pressure gauge.

Detailed Description

The technical solutions in the embodiments of the present invention will be described clearly and completely with reference to the accompanying drawings in the embodiments of the present invention, and it is obvious that the described embodiments are only some embodiments of the present invention, not all embodiments. Based on the embodiments in the present invention, all other embodiments obtained by a person skilled in the art without creative efforts all belong to the protection scope of the present invention.

The utility model aims at providing a hydrogen absorption device based on breathing machine to solve the problem that does not have the equipment that realizes the hydrogen absorption function with the help of traditional breathing machine on the market at present.

In order to make the above objects, features and advantages of the present invention more comprehensible, the present invention is described in detail with reference to the accompanying drawings and the detailed description.

Example 1:

the embodiment provides a hydrogen absorption device based on a breathing machine, which comprises a breathing machine body, wherein the input end of the breathing machine body is connected with an air source 1 and an oxygen source 2, and the output end of the breathing machine body provides breath for a patient; the output end of the respirator body is also connected with a hydrogen gas circuit.

Specifically, as shown in fig. 1, the air source 1 and the oxygen source 2 both use gas provided by a gas storage steel cylinder, the ventilator body includes a controller, and the controller is electrically connected to an air proportional valve 4, an oxygen proportional valve 5, an air flow meter 7, and an oxygen flow meter 8, respectively, wherein an input end of the air proportional valve 4 is connected to an output end of the air source 1, and an output end of the air proportional valve 4 is connected to an input end of the air flow meter 7; the input end of the oxygen proportional valve 5 is connected with the output end of the oxygen gas source 2, the output end of the oxygen proportional valve 5 is connected with the input end of the oxygen flow meter 8, and the output end of the air flow meter 7 is merged with the output end of the oxygen flow meter 8 and then output to provide breath for the patient; the hydrogen way comprises a hydrogen source 3, the hydrogen source 3 adopts gas provided by a gas storage steel cylinder, the output end of the hydrogen source 3 is connected with the input end of a hydrogen proportional valve 6, the output end of the hydrogen proportional valve 6 is connected with the input end of a hydrogen flowmeter 9, and the output end of the hydrogen flowmeter 9 is connected with a pipeline behind the junction end of the air flowmeter 7 and the oxygen flowmeter 8.

The working principle of the hydrogen absorption device based on the breathing machine provided by the embodiment is as follows: the constant flow treatment method is adopted, the existing respirator or high-flow machine is generally provided with a proportional valve and a flowmeter, and the proportional valve is controlled in a closed loop manner to obtain airflow with constant flow; for example, a user sets a certain parameter flow of 30L/min through the respirator body, the oxygen content is 45%, the controller can calculate 21L/min of air according to the input value, and the oxygen flow is 42.9% of the air; the controller can control the flow of the air and the oxygen through the closed-loop feedback of the proportional valve according to the information; the hydrogen is directly fed into the respiratory gas of the patient through the outlet of the respirator body which is connected with the hydrogen route, so that accurate control is not involved, and the hydrogen with a certain flow is fed out by controlling the hydrogen proportional valve 6 and the hydrogen flowmeter 9 according to experience, so that the total flow of the gas actually breathed by the patient is the sum of the set flow and the hydrogen flow, but the whole parameter treatment is not influenced because the hydrogen is generally set to have smaller inhalation flow; in order to facilitate implementation, a hydrogen adding gas circuit device on a mature respirator with the functions on the market can be directly used, and the hydrogen absorption function can be completed only by adding a hydrogen inlet on a breathing pipeline of a patient.

Example 2:

as a variation of embodiment 1, this embodiment provides another hydrogen absorption device based on a breathing machine, as shown in fig. 2, the air source 1 and the oxygen source 2 both use gas provided by a gas storage steel cylinder, the breathing machine body includes a controller, the controller is electrically connected to an air proportional valve 4, an oxygen proportional valve 5, an air flow meter 7 and an oxygen flow meter 8 respectively, wherein an input end of the air proportional valve 4 is connected to an output end of the air source 1, and an output end of the air proportional valve 4 is connected to an input end of the air flow meter 7; the input end of the oxygen proportional valve 5 is connected with the output end of the oxygen gas source 2, the output end of the oxygen proportional valve 5 is connected with the input end of the oxygen flow meter 8, and the output end of the air flow meter 7 is merged with the output end of the oxygen flow meter 8 and then output to provide breath for the patient; the hydrogen path comprises a hydrogen source 3, the hydrogen source 3 adopts gas (which can be single hydrogen or mixed gas of hydrogen and oxygen) provided by a water electrolysis hydrogen production machine, and the output end of the water electrolysis hydrogen production machine is connected with a pipeline behind the junction end of the air flow meter 7 and the oxygen flow meter 8.

The working principle of the hydrogen absorption device based on the breathing machine provided by the embodiment is as follows: a constant flow treatment method is adopted, air and oxygen are used as compressed gas in a gas storage steel cylinder, a proportional valve and a flowmeter are generally arranged in the existing respirator or high flow machine, and a constant flow air flow is obtained by controlling the proportional valve in a closed loop manner; for example, a user sets a certain parameter flow of 30L/min through a breathing machine body, the oxygen content is 45%, the system can calculate air 21L/min according to an input value, the oxygen flow is 42.9% of the air, the controller can control the flows of all paths through closed-loop feedback of the proportional valve according to the information, the hydrogen path is connected with an outlet of the breathing machine body and directly enters respiratory gas of a patient, therefore, the accurate control is not participated in, only according to experience, hydrogen with a certain flow is given out, the hydrogen source 3 uses the electrolytic water hydrogen production machine to produce hydrogen, and the produced hydrogen or hydrogen-oxygen mixed gas can be introduced into a breathing pipeline of the patient. Therefore, in the gas actually breathed by the patient, the total gas flow is the sum of the set flow and the hydrogen flow, but the hydrogen is generally set to have smaller inhalation flow, so the treatment of the whole parameters is not influenced.

Example 3:

as a variation of embodiment 1, this embodiment provides another hydrogen absorption apparatus based on a breathing machine, as shown in fig. 3, the oxygen gas source 2 is a gas provided by a gas storage cylinder, the air gas source 1 is a gas provided by a turbine compressor, the breathing machine body includes a controller, the controller is electrically connected to the turbine compressor, the oxygen proportional valve 5, an air flow meter 7, an oxygen flow meter 8 and an air pressure gauge respectively, wherein an output end of the turbine compressor is connected to an input end of the air flow meter 7, and an output end of the air flow meter 7 is connected to an input end of the air pressure gauge 10; the input end of the oxygen proportional valve 5 is connected with the output end of the oxygen gas source 2, the output end of the oxygen proportional valve 5 is connected with the input end of the oxygen flow meter 8, and the output end of the air pressure gauge 10 is merged with the output end of the oxygen flow meter 8 and then output to provide breath for the patient; the hydrogen way comprises a hydrogen source 3, the hydrogen source 3 adopts gas provided by a gas storage steel cylinder, the output end of the hydrogen source 3 is connected with the input end of a hydrogen proportional valve 6, the output end of the hydrogen proportional valve 6 is connected with the input end of a hydrogen flowmeter 9, and the output end of the hydrogen flowmeter 9 is connected with a pipeline after the convergence of an air pressure gauge 10 and an oxygen flowmeter 8.

The working principle of the hydrogen absorption device based on the breathing machine provided by the embodiment is as follows: the constant flow therapy method is adopted, the oxygen gas source 2 is in a form of compressing gas in a gas storage steel cylinder, the air gas source 1 is in a form of compressing ambient air by a turbine compressor, and the hydrogen gas is in a form of compressing gas in the gas storage steel cylinder. The turbo compressor sucks ambient air to compress the air, so that gas with a certain flow rate is generated, the flow rate and the pressure are controlled by the air flow meter 7 and the air pressure gauge 10, and then the gas is output, and the rest of the structure and the principle are the same as those of the embodiment 1.

Example 4:

as a variation of embodiment 1, this embodiment provides another hydrogen absorption apparatus based on a breathing machine, as shown in fig. 4, the oxygen gas source 2 is a gas provided by a gas storage cylinder, the air gas source 1 is a gas provided by a turbine compressor, the breathing machine body includes a controller, the controller is electrically connected to the turbine compressor, the oxygen proportional valve 5, the air flow meter 7, the oxygen flow meter 8 and the air pressure gauge 10 respectively, wherein an output end of the turbine compressor is connected to an input end of the air flow meter 7, and an output end of the air flow meter 7 is connected to an input end of the air pressure gauge 10; the input end of the oxygen proportional valve 5 is connected with the output end of the oxygen gas source 2, the output end of the oxygen proportional valve 5 is connected with the input end of the oxygen flow meter 8, and the output end of the air pressure gauge 10 is merged with the output end of the oxygen flow meter 8 and then output to provide breath for the patient; the hydrogen way comprises a hydrogen source 3, the hydrogen source 3 adopts gas provided by a water electrolysis hydrogen production machine, and the output end of the water electrolysis hydrogen production machine is connected with the air pressure gauge 10 and the converged pipeline of the oxygen flowmeter 8.

The working principle of the hydrogen absorption device based on the breathing machine provided by the embodiment is as follows: by adopting a constant flow treatment method, the oxygen gas source 2 is in a form of compressing gas in a gas storage steel cylinder, the air gas source 1 is in a form of compressing ambient air by a turbine compressor, and the hydrogen gas source 3 generates hydrogen by using an electrolytic water hydrogen production machine, which can be regarded as the combination of the embodiments 1-3.

Example 5:

as a variation of embodiment 1, this embodiment provides another hydrogen absorption device based on a breathing machine, as shown in fig. 5, the air source 1 and the oxygen source 2 both use gas provided by a gas storage steel cylinder, the breathing machine body includes a controller, the controller is respectively electrically connected to an air proportional valve 4, an oxygen proportional valve 5, an air flow meter 7, an oxygen flow meter 8 and a total pressure gauge 11, wherein an input end of the air proportional valve 4 is connected to an output end of the air source 1, and an output end of the air proportional valve 4 is connected to an input end of the air flow meter 7; the input end of the oxygen proportional valve 5 is connected with the output end of the oxygen gas source 2, the output end of the oxygen proportional valve 5 is connected with the input end of the oxygen flow meter 8, and the output end of the air flow meter 7 and the output end of the oxygen flow meter 8 are converged and then output through the total pressure gauge 11 to provide respiration for a patient; the hydrogen way comprises a hydrogen source 3, the hydrogen source 3 adopts gas provided by a gas storage steel cylinder, the output end of the hydrogen source 3 is connected with the input end of a hydrogen proportional valve 6, the output end of the hydrogen proportional valve 6 is connected with the input end of a hydrogen flowmeter 9, and the output end of the hydrogen flowmeter 9 is connected with the output end of a total pressure gauge 11.

The working principle of the hydrogen absorption device based on the breathing machine provided by the embodiment is as follows: the constant pressure treatment method is adopted, air and oxygen are in a compressed gas form in a gas storage steel cylinder, a controller controls an air proportional valve 4 in a closed loop mode to obtain airflow with constant pressure, an oxygen flowmeter 8 is the same as that in the embodiment 1, hydrogen is in a compressed gas form in the gas storage steel cylinder, and airflow with certain flow is obtained by controlling a hydrogen proportional valve 6 and a hydrogen flowmeter 9 and is connected with the output end of a total pressure meter 11.

Example 6:

as a variation of embodiment 1, this embodiment provides another hydrogen absorption apparatus based on a breathing machine, as shown in fig. 6, the air source 1 and the oxygen source 2 both use gas provided by a gas storage steel cylinder, the breathing machine body includes a controller, the controller is respectively electrically connected to an air proportional valve 4, an oxygen proportional valve 5, an air flow meter 7, an oxygen flow meter 8 and a total pressure gauge 11, wherein an input end of the air proportional valve 4 is connected to an output end of the air source 1, and an output end of the air proportional valve 4 is connected to an input end of the air flow meter 7; the input end of the oxygen proportional valve 5 is connected with the output end of the oxygen gas source 2, the output end of the oxygen proportional valve 5 is connected with the input end of the oxygen flow meter 8, and the output end of the air flow meter 7 and the output end of the oxygen flow meter 8 are converged and then output through the total pressure gauge 11 to provide respiration for a patient; the hydrogen way comprises a hydrogen source 3, the hydrogen source 3 adopts gas provided by a water electrolysis hydrogen production machine, and the output end of the water electrolysis hydrogen production machine is connected with the output end of the master pressure gauge 11.

The working principle of the hydrogen absorption device based on the breathing machine provided by the embodiment is the same as that of the hydrogen absorption device provided by the embodiment 5 except that the hydrogen path is different, and the control principle of the hydrogen path is the same as that of the embodiment 2.

Example 7:

as a variation of embodiment 1, this embodiment provides another hydrogen absorption apparatus based on a breathing machine, as shown in fig. 7, the oxygen gas source 2 is a gas provided by a gas storage cylinder, the air gas source 1 is a gas provided by a turbine compressor, the breathing machine body includes a controller, the controller is electrically connected to the turbine compressor, the oxygen proportional valve 5, the air flow meter 7, the oxygen flow meter 8 and the total pressure gauge 11, respectively, wherein an output end of the turbine compressor is connected to an input end of the air flow meter 7; the input end of the oxygen proportional valve 5 is connected with the output end of the oxygen gas source 2, the output end of the oxygen proportional valve 5 is connected with the input end of the oxygen flow meter 8, and the output end of the air flow meter 7 and the output end of the oxygen flow meter 8 are converged and then output through the total pressure gauge 11 to provide respiration for a patient; the hydrogen way comprises a hydrogen source 3, the hydrogen source 3 adopts gas provided by a gas storage steel cylinder, the output end of the hydrogen source 3 is connected with the input end of a hydrogen proportional valve 6, the output end of the hydrogen proportional valve 6 is connected with the input end of a hydrogen flowmeter 9, and the output end of the hydrogen flowmeter 9 is connected with the output end of a total pressure gauge 11.

The working principle of the hydrogen absorption device based on the breathing machine provided by the embodiment can refer to the embodiment 5 and the embodiment 3.

Example 8:

as a variation of embodiment 1, this embodiment provides another hydrogen absorption apparatus based on a breathing machine, as shown in fig. 8, the oxygen gas source 2 is a gas provided by a gas storage cylinder, the air gas source 1 is a gas provided by a turbine compressor, the breathing machine body includes a controller, the controller is electrically connected to the turbine compressor, the oxygen proportional valve 5, the air flow meter 7, the oxygen flow meter 8 and the master pressure gauge 11, respectively, wherein an output end of the turbine compressor is connected to an input end of the air flow meter 7; the input end of the oxygen proportional valve 5 is connected with the output end of the oxygen gas source 2, the output end of the oxygen proportional valve 5 is connected with the input end of the oxygen flow meter 8, and the output end of the air flow meter 7 and the output end of the oxygen flow meter 8 are converged and then output through the total pressure gauge 11 to provide respiration for a patient; the hydrogen way comprises a hydrogen source 3, the hydrogen source 3 adopts gas provided by a water electrolysis hydrogen production machine, and the output end of the water electrolysis hydrogen production machine is connected with the output end of the master pressure gauge 11.

The working principle of the hydrogen absorption device based on the breathing machine provided by the embodiment can refer to embodiment 6 and embodiment 7.

The utility model discloses the principle and the implementation mode of the utility model are explained by applying the concrete examples, and the explanation of the above examples is only used for helping to understand the method and the core idea of the utility model; meanwhile, for the general technical personnel in the field, according to the idea of the present invention, there are changes in the concrete implementation and the application scope. In summary, the content of the present description should not be construed as a limitation of the present invention.

Claims (9)

1. The utility model provides a inhale hydrogen device based on breathing machine which characterized in that: the breathing machine comprises a breathing machine body, wherein the input end of the breathing machine body is connected with an air source and an oxygen source, and the output end of the breathing machine body provides breath for a patient; the output end of the respirator body is also connected with a hydrogen gas circuit.

2. The ventilator-based hydrogen absorption apparatus according to claim 1, wherein: the respirator body comprises a controller, the controller is respectively and electrically connected with an air proportional valve, an oxygen proportional valve, an air flow meter and an oxygen flow meter, wherein the input end of the air proportional valve is connected with the output end of the air source, and the output end of the air proportional valve is connected with the input end of the air flow meter; the input end of the oxygen proportional valve is connected with the output end of the oxygen source, the output end of the oxygen proportional valve is connected with the input end of the oxygen flow meter, and the output end of the air flow meter and the output end of the oxygen flow meter are converged and then output to provide breathing for a patient; the hydrogen way comprises a hydrogen source, the hydrogen source adopts gas provided by a gas storage steel cylinder, the output end of the hydrogen source is connected with the input end of a hydrogen proportional valve, the output end of the hydrogen proportional valve is connected with the input end of a hydrogen flow meter, and the output end of the hydrogen flow meter is connected with the merging end of the air flow meter and the oxygen flow meter.

3. The ventilator-based hydrogen absorption apparatus according to claim 1, wherein: the respirator body comprises a controller, the controller is respectively and electrically connected with an air proportional valve, an oxygen proportional valve, an air flow meter and an oxygen flow meter, wherein the input end of the air proportional valve is connected with the output end of the air source, and the output end of the air proportional valve is connected with the input end of the air flow meter; the input end of the oxygen proportional valve is connected with the output end of the oxygen source, the output end of the oxygen proportional valve is connected with the input end of the oxygen flow meter, and the output end of the air flow meter and the output end of the oxygen flow meter are converged and then output to provide breath for a patient; the hydrogen way comprises a hydrogen source, the hydrogen source adopts gas provided by a water electrolysis hydrogen production machine, and the output end of the water electrolysis hydrogen production machine is connected with the merging end of the air flow meter and the oxygen flow meter.

4. The ventilator-based hydrogen absorption apparatus according to claim 1, wherein: the breathing machine body comprises a controller, the controller is respectively and electrically connected with the turbine compressor, the oxygen proportional valve, the air flow meter, the oxygen flow meter and the air pressure gauge, wherein the output end of the turbine compressor is connected with the input end of the air flow meter, and the output end of the air flow meter is connected with the input end of the air pressure gauge; the input end of the oxygen proportional valve is connected with the output end of the oxygen source, the output end of the oxygen proportional valve is connected with the input end of the oxygen flow meter, and the air pressure meter is connected on an output pipeline after the output ends of the oxygen flow meter are converged to provide breath for a patient; the hydrogen way comprises a hydrogen gas source, the hydrogen gas source adopts gas provided by a gas storage steel cylinder, the output end of the hydrogen gas source is connected with the input end of a hydrogen proportional valve, the output end of the hydrogen proportional valve is connected with the input end of a hydrogen flowmeter, and the output end of the hydrogen flowmeter is connected with the converging end of the air pressure meter and the oxygen flowmeter.

5. The ventilator-based hydrogen absorption apparatus according to claim 1, wherein: the breathing machine body comprises a controller, the controller is respectively and electrically connected with the turbine compressor, the oxygen proportional valve, the air flow meter, the oxygen flow meter and the air pressure gauge, wherein the output end of the turbine compressor is connected with the input end of the air flow meter, and the output end of the air flow meter is connected with the input end of the air pressure gauge; the input end of the oxygen proportional valve is connected with the output end of the oxygen source, the output end of the oxygen proportional valve is connected with the input end of the oxygen flow meter, and the output end of the air pressure gauge and the output end of the oxygen flow meter are converged and then output to provide breath for a patient; the hydrogen way comprises a hydrogen source, the hydrogen source adopts gas provided by a water electrolysis hydrogen production machine, and the output end of the water electrolysis hydrogen production machine is connected with the merging end of the air pressure meter and the oxygen flow meter.

6. The ventilator-based hydrogen absorption apparatus according to claim 1, wherein: the respirator body comprises a controller, the controller is respectively and electrically connected with an air proportional valve, an oxygen proportional valve, an air flow meter, an oxygen flow meter and a total pressure meter, wherein the input end of the air proportional valve is connected with the output end of the air source, and the output end of the air proportional valve is connected with the input end of the air flow meter; the input end of the oxygen proportional valve is connected with the output end of the oxygen source, the output end of the oxygen proportional valve is connected with the input end of the oxygen flow meter, and the output end of the air flow meter and the output end of the oxygen flow meter are converged and then output through the total pressure meter to provide breath for the patient; the hydrogen way comprises a hydrogen source, the hydrogen source adopts gas provided by a gas storage steel cylinder, the output end of the hydrogen source is connected with the input end of a hydrogen proportional valve, the output end of the hydrogen proportional valve is connected with the input end of a hydrogen flowmeter, and the output end of the hydrogen flowmeter is connected with the output end of the master pressure gauge.

7. The ventilator-based hydrogen absorption apparatus according to claim 1, wherein: the respirator body comprises a controller, the controller is respectively and electrically connected with an air proportional valve, an oxygen proportional valve, an air flow meter, an oxygen flow meter and a total pressure meter, wherein the input end of the air proportional valve is connected with the output end of the air source, and the output end of the air proportional valve is connected with the input end of the air flow meter; the input end of the oxygen proportional valve is connected with the output end of the oxygen source, the output end of the oxygen proportional valve is connected with the input end of the oxygen flow meter, and the output end of the air flow meter and the output end of the oxygen flow meter are converged and then output through the total pressure meter to provide breath for the patient; the hydrogen way comprises a hydrogen source, the hydrogen source adopts gas provided by a water electrolysis hydrogen production machine, and the output end of the water electrolysis hydrogen production machine is connected with the output end of the total pressure gauge.

8. The ventilator-based hydrogen absorption apparatus according to claim 1, wherein: the breathing machine body comprises a controller, the controller is respectively and electrically connected with the turbine compressor, the oxygen proportional valve, the air flow meter, the oxygen flow meter and the total pressure meter, wherein the output end of the turbine compressor is connected with the input end of the air flow meter; the input end of the oxygen proportional valve is connected with the output end of the oxygen source, the output end of the oxygen proportional valve is connected with the input end of the oxygen flow meter, and the output end of the air flow meter and the output end of the oxygen flow meter are converged and then output through the total pressure meter to provide breath for the patient; the hydrogen way comprises a hydrogen source, the hydrogen source adopts gas provided by a gas storage steel cylinder, the output end of the hydrogen source is connected with the input end of a hydrogen proportional valve, the output end of the hydrogen proportional valve is connected with the input end of a hydrogen flowmeter, and the output end of the hydrogen flowmeter is connected with the output end of the master pressure gauge.

9. The ventilator-based hydrogen absorption apparatus according to claim 1, wherein: the breathing machine body comprises a controller, the controller is respectively and electrically connected with the turbine compressor, the oxygen proportional valve, the air flow meter, the oxygen flow meter and the total pressure meter, wherein the output end of the turbine compressor is connected with the input end of the air flow meter; the input end of the oxygen proportional valve is connected with the output end of the oxygen source, the output end of the oxygen proportional valve is connected with the input end of the oxygen flow meter, and the output end of the air flow meter and the output end of the oxygen flow meter are converged and then output through the total pressure meter to provide breath for the patient; the hydrogen way comprises a hydrogen source, the hydrogen source adopts gas provided by a water electrolysis hydrogen production machine, and the output end of the water electrolysis hydrogen production machine is connected with the output end of the total pressure gauge.

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